高速切削加工技术

  • 网络High speed machining technology;HSMT
高速切削加工技术高速切削加工技术
  1. 高速切削加工技术的特点及应用要求

    Characteristics and Apply Request of High Speed Machining Technology

  2. 基于模具的高速切削加工技术

    High Speed Machining technology based mould

  3. 聚晶立方氮化硼(PCBN)刀具以其极高的硬度、耐磨性及红硬性为高速切削加工技术应用到黑色金属及难切削材料上起到了极大的推动作用。

    Polycrystalline Cubic Boron Nitride ( PCBN ) tool , plays a significant role in HSC ferrous metals and hard-to-cut materials , because of its extremely high hardness , wear resistance and red rigid .

  4. 高速切削加工技术在模具和模型制造中的应用

    Application of High Speed Cutting Technique in Die And Mould Manufacturing

  5. 高速切削加工技术及其发展前景

    The Statue and Foreground of High-speed Cutting Technology

  6. 在综合分析高速切削加工技术的基础上,提出了高速切削工艺数据库系统的设计思想;

    Based on the analyzing of the HSM technology , the technology database for HSM is designed ;

  7. 高速切削加工技术是二十一世纪机械制造领域的一个重要研究方向。

    High-Speed-Machining Technology is an important research method of mechanic - al manufacture field in the 21st century .

  8. 高速切削加工技术的发展与应用对高速刀具提出了不同于传统刀具的特殊要求。

    Special performance is required for high speed cutting cutter , which is different from that of traditional cutter .

  9. 高速切削加工技术作为一项近年来迅速发展起来的先进制造技术,具有传统数控加工不可比拟的优势。

    As an advanced manufacturing technology , high speed machining developed rapidly in recent years , with the unparalleled advantages over traditional CNC machining .

  10. 但是相对非金属材料和有色金属及其合金来说,黑色金属及其他一些难切削材料还不能完全利用高速切削加工技术。

    But ferrous metals and difficult-to-cut materials cannot be fully machined with high speed machining techniques compared to non-metallic materials and non-ferrous metals and their alloys .

  11. 介绍了作为“第三代制模技术”的高速切削加工技术在模具制造中的应用优势,以及高速切削加工模具的关键技术(包括机床、刀具和加工策略等)。

    Taking the machining of main cavity in injection mould for battery cover of portable computer as an example , the process planning and HSC parameters were presented .

  12. 高速切削加工技术是一种先进的制造技术,具有强大的生命力和广阔的应用前景,已成为切削加工的主流。

    The high speed cutting is one of advanced manufacture technique , which has the powerful vitality and the broad application , and already became the mainstream of machining .

  13. 介绍了平板裂缝天线制造技术的新进展,如高速切削加工技术、真空钎焊技术、碳纤维复合材料成型技术以及相关分析仿真技术等。

    This paper introduces an advanced manufacturing technology of plane slotted-array antenna including high speed machining , vacuum brazing , use of carbon fibre reinforced plastic and related simulation technique .

  14. 随着高速切削加工技术的发展,角接触球轴承因其转速高、耐高温和刚性好等特性而得到人们的高度重视和推广应用。

    Due to its high speed , high temperature resistance and high rigidity , angular contact ball bearing has received much attention and been widely used in high-speed machining field .

  15. 介绍了高速切削加工技术及模具高速切削所使用的陶瓷刀具、金刚石刀具、立方氮化硼刀具、涂层刀具的性能特点及应用,探讨了模具高速切削刀具材料的发展方向。

    The high speed machining technology and the characteristics and application of high speed cutting tool with ceramic tool , diamond tool , cubic BN tool and coated tool were introduced .

  16. 高速切削加工技术是近年来迅速崛起的一项先进制造技术,具有高效率,高精度和低成本的突出优势,在现代加工制造中应用日益广泛。

    High-speed machining is an advanced manufacturing technology developing rapidly in recent years , which possessed outstanding of high efficiency 、 high precision 、 low cost and has wide application prospects .

  17. 高速切削加工技术由于其加工效率高,表面质量好,切削力小等优点而被认为是面向二十一世纪的先进加工技术。

    Owing to its merits of high-level efficiency , good surface quality , little cutting force and so on , high-speed cutting and machining technology is considered to be the advanced machining technology in the 21st century .

  18. 近年来,高速切削加工技术在制造业中得到了广泛应用,高速切削条件下产生的锯齿形切屑可能会影响到工件的加工精度、表面粗糙度和刀具寿命。

    In recent years , the technology for high speed machining is applied widely in manufacture companies . The formation of sawtooth chips in high speed machining can influence on machining precision , surface roughness and tool life .

  19. 以高切削效率和高表面加工质量为主要特征的高速切削加工技术,一直受到发达工业国家的重视,取得良好的经济效益和社会效益。

    High speed cutting ( HSC ) technology , which have main feature of higher cutting efficiency and higher machined surface quality , has been pay attention in developed industrial countries , and obtained good economic and social benefits .

  20. 结合高速切削加工技术和刀具材料的研究,综合论述高速切削加工刀具材料的性能特点、研究进展和应用,展望高速切削加工刀具材料的未来。

    Unify the high-speed machining technology and the cutting tool material research , the synthesis elaborates the high-speed machining cutting tool material performance characteristic , the research progressed and applies , has pointed out the high-speed cutting processing cutting tool material future .

  21. 高速切削加工CAM技术策略的研究

    Study on CAM Technology of High Speed Machining

  22. 综合评述了高速干式切削加工技术的特点及优势,分析了实现高速干式切削加工的关键技术(包括机床、刀具及涂层、加工辅助技术等),介绍了高速干式切削加工技术的实际应用。

    The key technologies to carry out the high speed dry cutting , including machine tool technique , cutting tool and coatings , machining parameters and assistant techniques etc. are analyzed in detail . The practical applications of high speed dry cutting technology are introduced briefly .

  23. 速旋转刀具动平衡技术是高速切削加工的重要配套技术。

    The dynamic balance technology of high speed rotating cutter is an important supporting technology of the high speed cutting .

  24. 高速刀具是高速切削加工技术的重要组成部分,刀具刃口刃形对高速切削过程有重要的影响。

    High-speed cutting tools are important components in high-speed machining technology . Cutting edge has important effects on the high-speed cutting process .

  25. 高速切削加工属于先进制造技术,由于其具有一系列的优点,因而在工业领域中获得了广泛的应用。

    High speed cutting is advanced manufacturing technology , which has applied widely in many industrial fields because of its series of advantages .

  26. 介绍了最近几年国外工业发达国家对高速及超高速切削加工技术的发展与应用。

    The development and application of high-speed and super high-speed machining technology in some highly industrialized countries in recent years are briefly presented in this paper .

  27. 阐述高速干切削加工及其关键技术(包括刀具技术、机床技术和工艺技术等)。

    This paper has explained that the high speed dry cutting processing and its key technology ( including the cutter technology , the machine tool technology and the technics technology ) .

  28. 在现代切削技术高速发展的今天,高速切削加工技术的应用已经得到了发展。

    With the rapid development of modern cutting technology , the application of high-speed cutting technology has developed widely .

  29. 高速切削的工艺技术是成功进行高速切削加工的关键技术之一。

    Technologies of high-speed machining process are very important for HSM application .

  30. 论述了高速切削加特点及应用,并介绍了与高速切削加工技术相关的技术的发展趋势。

    The characteristics and application of high speed machining technique are discussed , the developing trends of the related techniques are also introduced .